Structural details of amyloid β oligomers in complex with human prion protein as revealed by solid-state MAS NMR spectroscopy
Autor: | König, Anna S., Rösener, Nadine S., Gremer, Lothar, Tusche, Markus, Flender, Daniel, Reinartz, Elke, Hoyer, Wolfgang, Neudecker, Philipp, Willbold, Dieter, Heise, Henrike |
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Jazyk: | angličtina |
Předmět: |
Aβ
amyloid β Amyloid PDSD proton-driven spin-diffusion Magnetic Resonance Spectroscopy nuclear magnetic resonance (NMR) AD Alzheimer’s disease oligomer RCI Random Coil Index Prion Proteins Protein Structure Secondary Cell Line PrPC cellular prion protein DE direct excitation Alzheimer Disease structural biology Animals Humans solution NMR Amyloid beta-Peptides CP cross polarization INEPT insensitive nuclei enhancement by polarizaiton transfer Rats prion protein amyloid beta (Aβ) ddc:540 solid-state NMR Protein Multimerization Research Article |
Zdroj: | The Journal of Biological Chemistry The journal of biological chemistry 296, 100499-(2021). doi:10.1016/j.jbc.2021.100499 |
ISSN: | 0021-9258 |
DOI: | 10.1016/j.jbc.2021.100499 |
Popis: | Human PrP (huPrP) is a high-affinity receptor for oligomeric amyloid β (Aβ) protein aggregates. Binding of Aβ oligomers to membrane-anchored huPrP has been suggested to trigger neurotoxic cell signaling in Alzheimer’s disease, while an N-terminal soluble fragment of huPrP can sequester Aβ oligomers and reduce their toxicity. Synthetic oligomeric Aβ species are known to be heterogeneous, dynamic, and transient, rendering their structural investigation particularly challenging. Here, using huPrP to preserve Aβ oligomers by coprecipitating them into large heteroassemblies, we investigated the conformations of Aβ(1–42) oligomers and huPrP in the complex by solid-state MAS NMR spectroscopy. The disordered N-terminal region of huPrP becomes immobilized in the complex and therefore visible in dipolar spectra without adopting chemical shifts characteristic of a regular secondary structure. Most of the well-defined C-terminal part of huPrP is part of the rigid complex, and solid-state NMR spectra suggest a loss in regular secondary structure in the two C-terminal α-helices. For Aβ(1–42) oligomers in complex with huPrP, secondary chemical shifts reveal substantial β-strand content. Importantly, not all Aβ(1–42) molecules within the complex have identical conformations. Comparison with the chemical shifts of synthetic Aβ fibrils suggests that the Aβ oligomer preparation represents a heterogeneous mixture of β-strand-rich assemblies, of which some have the potential to evolve and elongate into different fibril polymorphs, reflecting a general propensity of Aβ to adopt variable β-strand-rich conformers. Taken together, our results reveal structural changes in huPrP upon binding to Aβ oligomers that suggest a role of the C terminus of huPrP in cell signaling. Trapping Aβ(1–42) oligomers by binding to huPrP has proved to be a useful tool for studying the structure of these highly heterogeneous β-strand-rich assemblies. |
Databáze: | OpenAIRE |
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